{#     Copyright 2025, Kay Hayen, mailto:kay.hayen@gmail.com find license text at end of file #}

{% from 'HelperObjectTools.c.j2' import CHECK_OBJECTS %}
{% if args_count == 1 %}
PyObject *CALL_METHODDESCR_WITH_SINGLE_ARG(PyThreadState *tstate, PyObject *called, PyObject *arg) {
    PyObject *const *args = &arg; // For easier code compatibility.
{% else %}
PyObject *CALL_METHODDESCR_WITH_ARGS{{args_count}}(PyThreadState *tstate, PyObject *called, PyObject *const *args) {
{% endif %}
    CHECK_OBJECT(called);
    {{ CHECK_OBJECTS(args, args_count) }}

#if PYTHON_VERSION >= 0x380 && !defined(_NUITKA_EXPERIMENTAL_DISABLE_VECTORCALL_USAGE)
    assert (PyType_HasFeature(Py_TYPE(called), _Py_TPFLAGS_HAVE_VECTORCALL));
    vectorcallfunc func = *((vectorcallfunc *)(((char *)called) + Py_TYPE(called)->tp_vectorcall_offset));
    assert(func != NULL);
{% if args_count == 0 %}
    PyObject *result = func(called, NULL, 0, NULL);
{% else %}
    PyObject *result = func(called, args, {{args_count}}, NULL);
{% endif %}

#ifndef __NUITKA_NO_ASSERT__
    return Nuitka_CheckFunctionResult(tstate, called, result);
#else
    return result;
#endif
#else
    PyMethodDescrObject *called_descr = (PyMethodDescrObject *)called;
    PyMethodDef *method_def = called_descr->d_method;

    // Try to be fast about wrapping the arguments.
    int flags = method_def->ml_flags & ~(METH_CLASS | METH_STATIC | METH_COEXIST);

    if ({{ unlikely_or_likely_from(args_count != 1) }}(flags & METH_NOARGS)) {
        PyCFunction method = method_def->ml_meth;
        PyObject *self = args[0];

        PyObject *result = (*method)(self, NULL);

#ifndef __NUITKA_NO_ASSERT__
        return Nuitka_CheckFunctionResult(tstate, called, result);
#else
        return result;
#endif
    } else if ({{ unlikely_if(args_count != 1) }}(flags & METH_O)) {
{% if args_count == 2 %}
        PyCFunction method = method_def->ml_meth;
        PyObject *self = args[0];

        PyObject *result = (*method)(self, args[1]);

#ifndef __NUITKA_NO_ASSERT__
        return Nuitka_CheckFunctionResult(tstate, called, result);
#else
        return result;
#endif
{% else %}
        SET_CURRENT_EXCEPTION_TYPE0_FORMAT1(PyExc_TypeError,
            "%s() takes exactly one argument ({{args_count}} given)",
                method_def->ml_name
        );
        return NULL;
{% endif %}
    } else if (flags & METH_VARARGS) {
        PyCFunction method = method_def->ml_meth;
        PyObject *self = args[0];

        PyObject *result;

#if PYTHON_VERSION < 0x360
{% if args_count == 1 %}
        if (flags & METH_KEYWORDS) {
            result = (*(PyCFunctionWithKeywords)method)(self, const_tuple_empty, NULL);
        } else {
            result = (*method)(self, const_tuple_empty);
        }
{% else %}
        PyObject *pos_args = MAKE_TUPLE(tstate, args+1, {{args_count-1}});

        if (flags & METH_KEYWORDS) {
            result = (*(PyCFunctionWithKeywords)method)(self, pos_args, NULL);
        } else {
            result = (*method)(self, pos_args);
        }

        Py_DECREF(pos_args);
{% endif %}
#else
        if (flags == (METH_VARARGS|METH_KEYWORDS)) {
{% if args_count == 1 %}
            result = (*(PyCFunctionWithKeywords)method)(self, const_tuple_empty, NULL);
{% else %}
            PyObject *pos_args = MAKE_TUPLE(tstate, args+1, {{args_count-1}});
            result = (*(PyCFunctionWithKeywords)method)(self, pos_args, NULL);
            Py_DECREF(pos_args);
{% endif %}
        } else if (flags == METH_FASTCALL) {
#if PYTHON_VERSION < 0x370
            result = (*(_PyCFunctionFast)method)(self, (PyObject **)args+1, {{args_count-1}}, NULL);
#else
{% if args_count == 1 %}
            result = (*(_PyCFunctionFast)method)(self, &const_tuple_empty, {{args_count}});
{% else %}
            PyObject *pos_args = MAKE_TUPLE(tstate, args+1, {{args_count-1}});
            result = (*(_PyCFunctionFast)method)(self, &pos_args, {{args_count}});
            Py_DECREF(pos_args);
{% endif %}
#endif
        } else {
{% if args_count == 1 %}
            result = (*method)(self, const_tuple_empty);
{% else %}
            PyObject *pos_args = MAKE_TUPLE(tstate, args+1, {{args_count-1}});
            result = (*method)(self, pos_args);
            Py_DECREF(pos_args);
{% endif %}
        }
#endif
#ifndef __NUITKA_NO_ASSERT__
        return Nuitka_CheckFunctionResult(tstate, called, result);
#else
        return result;
#endif
    }


#if 0
    PRINT_NEW_LINE();
    PRINT_STRING("FALLBACK");
    PRINT_ITEM(called);
    PRINT_NEW_LINE();
#endif

{# TODO: How come the PyCFunction call does not cover all cases, that should
   be doable. #}

{% if args_count == 0 %}
    PyObject *result = CALL_FUNCTION(tstate, called, const_tuple_empty, NULL);
{% else %}
    PyObject *pos_args = MAKE_TUPLE(tstate, args, {{args_count}});

    PyObject *result = CALL_FUNCTION(tstate, called, pos_args, NULL);

    Py_DECREF(pos_args);
{% endif %}

    return result;
#endif
}

{#     Part of "Nuitka", an optimizing Python compiler that is compatible and   #}
{#     integrates with CPython, but also works on its own.                      #}
{#                                                                              #}
{#     Licensed under the Apache License, Version 2.0 (the "License");          #}
{#     you may not use this file except in compliance with the License.         #}
{#     You may obtain a copy of the License at                                  #}
{#                                                                              #}
{#        http://www.apache.org/licenses/LICENSE-2.0                            #}
{#                                                                              #}
{#     Unless required by applicable law or agreed to in writing, software      #}
{#     distributed under the License is distributed on an "AS IS" BASIS,        #}
{#     WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. #}
{#     See the License for the specific language governing permissions and      #}
{#     limitations under the License.                                           #}
